2. Water at 20°C with a density of 0.9982 g/cc and a viscosity of 1 cP is flowing from an open reservoir through the piping system below and assumed to be discharged at an atmospheric condition. The piping system is composed of 3 m - 3" schedule 40 pipe with a standard gate valve wide open installed and 6 m - 2" schedule 40 pipe. The reservoir has a level of water of 3.5 m. Calculate the average volumetric flow rate in liters per minute. (Use equation 6-37 of Perry's Handbook (9th edition) to calculate for fanning friction factor). 3" pipe Sch 40 3.5 m 2" Sch 40 pipe Standard Gate Valve – Wide open
2. Water at 20°C with a density of 0.9982 g/cc and a viscosity of 1 cP is flowing from an open reservoir through the piping system below and assumed to be discharged at an atmospheric condition. The piping system is composed of 3 m - 3" schedule 40 pipe with a standard gate valve wide open installed and 6 m - 2" schedule 40 pipe. The reservoir has a level of water of 3.5 m. Calculate the average volumetric flow rate in liters per minute. (Use equation 6-37 of Perry's Handbook (9th edition) to calculate for fanning friction factor). 3" pipe Sch 40 3.5 m 2" Sch 40 pipe Standard Gate Valve – Wide open
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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![2. Water at 20°C with a density of 0.9982 g/cc and a viscosity of 1 cP is flowing from an open reservoir through
the piping system below and assumed to be discharged at an atmospheric condition. The piping system is
composed of 3 m - 3" schedule 40 pipe with a standard gate valve wide open installed and 6 m - 2" schedule
40 pipe. The reservoir has a level of water of 3.5 m. Calculate the average volumetric flow rate in liters per
minute. (Use equation 6-37 of Perry's Handbook (9th edition) to calculate for fanning friction factor).
3" pipe Sch 40
3.5 m
2" Sch 40 pipe
Standard Gate Valve – Wide open](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fb9a8e767-c6b5-4c61-b136-f36faedd3a23%2F8758f304-012c-4be5-85e2-a1e9943d3413%2Fj85lsjl_processed.jpeg&w=3840&q=75)
Transcribed Image Text:2. Water at 20°C with a density of 0.9982 g/cc and a viscosity of 1 cP is flowing from an open reservoir through
the piping system below and assumed to be discharged at an atmospheric condition. The piping system is
composed of 3 m - 3" schedule 40 pipe with a standard gate valve wide open installed and 6 m - 2" schedule
40 pipe. The reservoir has a level of water of 3.5 m. Calculate the average volumetric flow rate in liters per
minute. (Use equation 6-37 of Perry's Handbook (9th edition) to calculate for fanning friction factor).
3" pipe Sch 40
3.5 m
2" Sch 40 pipe
Standard Gate Valve – Wide open
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